Journal
2021 IEEE SENSORS
Volume -, Issue -, Pages -Publisher
IEEE
DOI: 10.1109/SENSORS47087.2021.9639519
Keywords
Inertial sensing; gyroscope; hot atomic vapor; MEMS; modeling; optimization; simulation; control theory
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This study introduces a concept, modeling, and parameter optimization for a spin-based navigation-grade gyroscope, bridging the gap between high precision optical and low-cost MEMS gyroscopes. A numerical solution is used to consider all relevant magnetic fields and back-interactions to better understand the transient behavior of the sensor signal.
Quantum technologies can become enabling for many future applications. In this work, we present concept, modeling and parameter optimization, for a spin-based navigation-grade gyroscope. This technology bridges the gap between high precision optical and MEMS (low cost, small package) gyroscopes. We study a numerical solution taking into account all relevant magnetic fields and back-interactions to provide a better understanding of the transient behavior of the sensor signal and allow for parameter optimization.
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